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Start Over Author "Lee, W. N." Publisher american physiological society
17 results on '"Lee, W. N."'

1. Loss of regulation of lipogenesis in the Zucker diabetic rat. II. Changes in stearate and oleate synthesis

Author

Bassilian, Sara, Ahmed, Syed, Lim, Shu K., Boros, Laszlo G., Mao, Catherine S., and Lee, W.-N. Paul

Subjects
Fatty acid desaturases -- Physiological aspects, Tissues -- Composition, Fatty acids -- Synthesis, Diabetes -- Research, Biological sciences
Abstract

De novo lipogenesis and dietary fat uptake are two major sources of fatty acid deposits in fat of obese animals. To determine the relative contribution of fatty acids from these two sources in obesity, we have determined the distribution of c16 and c18 fatty acids of triglycerides in plasma, liver, and epididymal fat pad of Zucker diabetic fatty (ZDF) rats and their lean littermates (ZL) under two isocaloric dietary fat conditions. Lipogenesis was also determined using the deuterated water method. Conversion of palmitate to stearate and stearate to oleate was calculated from the deuterium incorporation by use of the tracer dilution principle. In the ZL rat, lipogenesis was suppressed from 70 to 24%, conversion of palmitate to stearate from 86 to 78%, and conversion of stearate to oleate from 56 to 7% in response to an increase in the dietary fat-to-carbohydrate ratio. The results suggest that suppression of fatty acid synthase and stearoyl-CoA desaturase activities is a normal adaptive mechanism to a high-fat diet. In contrast, de novo lipogenesis, chain elongation, and desaturation were not suppressed by dietary fat in the ZDF rat. The lack of ability to adapt to a high-fat diet resulted in a higher plasma triglyceride concentration and excessive fat accumulation from both diet and de novo synthesis in the ZDF rat. chain elongation; stearoyl-coenzyme A desaturase; tissue fatty acid composition

Published
2002

2. Underestimation of gluconeogenesis by the [[U-.sup.13][C.sub.6]]glucose method: effect of lack of isotope equilibrium

Author

Mao, Catherine S., Bassilian, Sara, Lim, Shu K., and Lee, W.-N. Paul

Subjects
Gluconeogenesis -- Measurement, Mathematical analysis -- Models, Computer simulation -- Usage, Biological sciences
Abstract

Underestimation of gluconeogenesis by the [[U-.sup.13][C.sub.6]]glucose method: effect of lack of isotope equilibrium. Am J Physiol Endocrinol Metab 282: E376-E385, 2002. First published October 16, 2001; 10.1152/ajpendo.00210.2001.--Among the many tracer methods to indirectly estimate gluconeogenesis in humans, the [[U-.sup.13][C.sub.6]]glucose method as proposed by Tayek and Katz (Am J Physiol Endocrinol Metab 270: E709-E717, 1996; Am J Physiol Endocrinol Metab 272: E476-E484, 1997) has the advantage of being able to simultaneously estimate hepatic glucose output and fractional gluconeogenesis. However, Landau et al. (Landau BR, J Wahren, K Ekberg, SF Previs, D Yang, and H Brunengraber. Am J Physiol Endocrinol Metab 274: E954-E961, 1998) have shown that this method underestimates the rate of gluconeogenesis. The underestimation has been attributed to tracer dilution by other three-carbon substrates and the lack of isotopic steady state. Using a computer simulation of [[U-.sup.13][C.sub.6]]glucose infusion, we demonstrate that the lack of isotope equilibrium in both the lactate and glucose compartments contributes substantially to the underestimation of gluconeogenesis. [[U-sup.13][C.sub.6]]glucose experiments were performed with the addition of a primed constant infusion of [[U-.sup.13][C.sub.3]]lactate and the delay in M3 glucose equilibrium estimated from the isotopic steady-state value determined by modeling M3 glucose to a single-exponential fit. We found that, even with the addition of [[U-.sup.13][C.sub.3]]lactate infusion, the M3 glucose enrichment of the last timed sample was ~20% less than the isotopic steady-state value. Thus the lack of isotopic equilibrium of the glucose compartment potentially accounts for 20% of the underestimation of gluconeogenesis. The underestimation of gluconeogenesis using [[U-.sup.13][C.sub.6]] glucose without the additional infusion of [[U-.sup.13][C.sub.3]] lactate in previous publications is expected to be even greater because of the lack of isotope equilibrium in both the lactate and glucose compartments. These findings are consistent with the results from our computer simulation. mathematical modeling; mass isotopomer distribution analysis, stable isotopes

Published
2002

3. Measurement of gluconeogenesis and mass isotopomer analysis based on (U-13C)glucose

Author

Radziuk, Jerry and Lee, W.-N. Paul

Subjects
Gluconeogenesis -- Research, Glucose -- Physiological aspects, Tracers (Biology) -- Usage, Biological sciences
Abstract

Two techniques of measuring rates of gluconeogenesis based on label redistribution after the introduction of (U-13C)glucose into the whole body were investigated. These techniques were contrasted with methods previously derived for carbon-14 tracers. Results showed that the three approaches (stoichiometric, dilution and combinatorial) are equivalent, provided the same set of assumptions are employed.

Published
1999

4. Loss of regulation of lipogenesis in the Zucker diabetic (ZDF) rat

Author

LEE, W.-N. PAUL, BASSILIAN, SARA, LIM, SHU, and BOROS, LASZLO G.

Subjects
Diabetes -- Physiological aspects, Dietary fat -- Physiological aspects, Leptin -- Physiological aspects, Rats -- Physiological aspects, Deuterium -- Physiological aspects, Animal nutrition -- Physiological aspects, Biological sciences
Abstract

Lee, W.-N. Paul, Sara Bassilian, Shu Lim, and Laszlo G. Boros. Loss of regulation of lipogenesis in the Zucker diabetic (ZDF) rat. Am J Physiol Endocrinol Metab 279: E425-E432, 2000.--We present here a study on the role of leptin in the regulation of lipogenesis by examining the effect of dietary macronutrient composition on lipogenesis in the leptin receptor-defective Zucker diabetic fatty rat (ZDF) and its lean litter mate (ZL). Animals were pair fed two isocaloric diets differing in their fat-to-carbohydrate ratio providing 10 and 30% energy as fat. Lipogenesis was measured in the rats using deuterated water and isotopomer analysis. From the deuterium incorporation into plasma palmitate, stearate, and oleate, we determined de novo synthesis of palmitate and synthesis of stearate by chain elongation and of oleate by desaturation. Because the macronutrient composition and the caloric density were controlled, changes in de novo lipogenesis under these dietary conditions represent adaptation to changes in the fat-to-carbohydrate ratio of the diet. De novo lipogenesis was normally suppressed in response to the high-fat diet in the ZL rat to maintain a relatively constant amount of lipids transported. The ZDF rat had a higher rate of lipogenesis, which was not suppressed by the high-fat diet. The results suggest an important hormonal role of leptin in the feedback regulation of lipogenesis. leptin receptor; animal model of diabetes; deuterated water; dietary fat

Published
2000

15. Glucose metabolic adaptations in the intrauterine growth-restricted adult female rat offspring.

Author

Garg M, Thamotharan M, Rogers L, Bassilian S, Lee WN, and Devaskar SU

Subjects
Animals, Animals, Newborn, Animals, Suckling, Body Weight, Caloric Restriction methods, Female, Glucose-6-Phosphatase metabolism, Homeostasis, Rats, Rats, Sprague-Dawley, Time Factors, Caloric Restriction adverse effects, Fetal Growth Retardation metabolism, Glucose metabolism, Lactation physiology
Abstract

We studied glucose metabolic adaptations in the intrauterine growth-restricted (IUGR) rat offspring to decipher glucose homeostasis in metabolic programming. Glucose futile cycling (GFC), which is altered when there is imbalance between glucose production and utilization, was studied during a glucose tolerance test (GTT) in 2-day-old (n = 8), 2-mo-old (n = 22), and 15-mo-old (n = 22) female rat offspring. The IUGR rats exposed to either prenatal (CM/SP, n = 5 per age), postnatal (SM/CP, n = 6), or pre- and postnatal (SM/SP, n = 6) nutrient restriction were compared with age-matched controls (CM/CP, n = 5). At 2 days, IUGR pups (SP) were smaller and glucose intolerant and had increased hepatic glucose production and increased glucose disposal (P < 0.01) compared with controls (CP). At 2 mo, the GTT, glucose clearance, and GFC did not change. However, a decline in hepatic glucose-6-phosphatase (P < 0.05) and fructose-1,6-biphosphatase (P < 0.05) enzyme activities in the IUGR offspring was detected. At 15 mo, prenatal nutrient restriction (CM/SP) resulted in greater weight gain (P < 0.01) and hyperinsulinemia (P < 0.001) compared with postnatal nutrient restriction (SM/CP). A decline in GFC in the face of a normal GTT occurred in both the prenatal (CM/SP, P < 0.01) and postnatal calorie (SM/CP, P < 0.03) and growth-restricted offspring. The IUGR offspring with pre- and postnatal nutrient restriction (SM/SP) were smaller, hypoinsulinemic (P < 0.03), and hypoleptinemic (P < 0.03), with no change in GTT, hepatic glucose production, GFC, or glucose clearance. We conclude that there is pre- and postnatal programming that affects the postnatal compensatory adaptation of GFC and disposal initiated by changes in circulating insulin concentrations, thereby determining hepatic insulin sensitivity in a phenotype-specific manner.

Published
2006
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16. Underestimation of gluconeogenesis by the [U-(13)C(6)]glucose method: effect of lack of isotope equilibrium.

Author

Mao CS, Bassilian S, Lim SK, and Lee WN

Subjects
Carbon Isotopes, Computer Simulation, Female, Humans, Kinetics, Lactic Acid metabolism, Male, Reference Values, Gluconeogenesis, Glucose metabolism, Models, Biological
Abstract

Among the many tracer methods to indirectly estimate gluconeogenesis in humans, the [U-(13)C(6)]glucose method as proposed by Tayek and Katz (Am J Physiol Endocrinol Metab 270: E709-E717, 1996; Am J Physiol Endocrinol Metab 272: E476-E484, 1997) has the advantage of being able to simultaneously estimate hepatic glucose output and fractional gluconeogenesis. However, Landau et al. (Landau BR, J Wahren, K Ekberg, SF Previs, D Yang, and H Brunengraber. Am J Physiol Endocrinol Metab 274: E954-E961, 1998) have shown that this method underestimates the rate of gluconeogenesis. The underestimation has been attributed to tracer dilution by other three-carbon substrates and the lack of isotopic steady state. Using a computer simulation of [U-(13)C(6)]glucose infusion, we demonstrate that the lack of isotope equilibrium in both the lactate and glucose compartments contributes substantially to the underestimation of gluconeogenesis. [U-(13)C(6)]glucose experiments were performed with the addition of a primed constant infusion of [U-(13)C(3)]lactate and the delay in M3 glucose equilibrium estimated from the isotopic steady-state value determined by modeling M3 glucose to a single-exponential fit. We found that, even with the addition of [U-(13)C(3)]lactate infusion, the M3 glucose enrichment of the last timed sample was approximately 20% less than the isotopic steady-state value. Thus the lack of isotopic equilibrium of the glucose compartment potentially accounts for 20% of the underestimation of gluconeogenesis. The underestimation of gluconeogenesis using [U-(13)C(6)]glucose without the additional infusion of [U-(13)C(3)]lactate in previous publications is expected to be even greater because of the lack of isotope equilibrium in both the lactate and glucose compartments. These findings are consistent with the results from our computer simulation.

Published
2002
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17. Mass isotopomer study of the nonoxidative pathways of the pentose cycle with [1,2-13C2]glucose.

Author

Lee WN, Boros LG, Puigjaner J, Bassilian S, Lim S, and Cascante M

Subjects
Carbon Isotopes, Glucosephosphate Dehydrogenase metabolism, Humans, Lactic Acid metabolism, Palmitates metabolism, Pentoses metabolism, Ribose metabolism, Transaldolase metabolism, Transketolase metabolism, Tumor Cells, Cultured, Glucose metabolism, Pentose Phosphate Pathway physiology
Abstract

We present a single-tracer method for the study of the pentose phosphate pathway (PPP) using [1,2-13C2]glucose and mass isotopomer analysis. The metabolism of [1,2-13C2]glucose by the glucose-6-phosphate dehydrogenase, transketolase (TK), and transaldolase (TA) reactions results in unique pentose and lactate isotopomers with either one or two 13C substitutions. The distribution of these isotopomers was used to estimate parameters of the PPP using the model of Katz and Rognstad (J. Katz and R. Rognstad. Biochemistry 6: 2227-2247, 1967). Mass and position isotopomers of ribose, and lactate and palmitate (products from triose phosphate) from human hepatoma cells (Hep G2) incubated with 30% enriched [1,2-13C2]glucose were determined using gas chromatography-mass spectrometry. After 24-72 h incubation, 1.9% of lactate molecules in the medium contained one 13C substitution (m1) and 10% contained two 13C substitutions (m2). A similar m1-to-m2 ratio was found in palmitate as expected. Pentose cycle (PC) activity determined from incubation with [1,2-13C2]glucose was 5.73 +/- 0.52% of the glucose flux, which was identical to the value of PC (5.55 +/- 0.73%) determined by separate incubations with [1-13C] and [6-13C]glucose, 13C was found to be distributed in four ribose isotopomers ([1-13C]-, [5-13C]-, [1,2-13C2]-, and [4,5-13C2]ribose). The observed ribose isotopomer distribution was best matched with that provided from simulation by substituting 0.032 for TK and 0.85 for TA activity relative to glucose uptake into the model of Katz and Rognstad. The use of [1,2-13C2]glucose not only permits the determination of PC but also allows estimation of relative rates through the TK and TA reactions.

Published
1998
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